File: local_device_gtest_run_test.py

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#!/usr/bin/env vpython3
# Copyright 2021 The Chromium Authors
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
"""Tests for local_device_gtest_test_run."""

# pylint: disable=protected-access


import random
import os
import unittest

import sys
sys.path.append(os.path.abspath(os.path.join(os.path.dirname(__file__),
    '../../..')))

from pylib.base import base_test_result
from pylib.gtest import gtest_test_instance
from pylib.local.device import local_device_environment
from pylib.local.device import local_device_gtest_run

import mock  # pylint: disable=import-error


def isSliceInList(s, l):
  lenOfSlice = len(s)
  return any(s == l[i:lenOfSlice + i] for i in range(len(l) - lenOfSlice + 1))


class LocalDeviceGtestRunTest(unittest.TestCase):
  def setUp(self):
    self._obj = local_device_gtest_run.LocalDeviceGtestRun(
        mock.MagicMock(spec=local_device_environment.LocalDeviceEnvironment),
        mock.MagicMock(spec=gtest_test_instance.GtestTestInstance))

  def testExtractTestsFromFilter(self):
    # Checks splitting by colons.
    self.assertEqual(
        set([
            'm4e3',
            'p51',
            'b17',
        ]),
        set(local_device_gtest_run._ExtractTestsFromFilters(['b17:m4e3:p51'])))
    # Checks the '-' sign.
    self.assertIsNone(local_device_gtest_run._ExtractTestsFromFilters(['-mk2']))
    # Checks the more than one asterick.
    self.assertIsNone(
        local_device_gtest_run._ExtractTestsFromFilters(['.mk2*:.M67*']))
    # Checks just an asterick without a period
    self.assertIsNone(local_device_gtest_run._ExtractTestsFromFilters(['M67*']))
    # Checks an asterick at the end with a period.
    self.assertEqual(['.M67*'],
                     local_device_gtest_run._ExtractTestsFromFilters(['.M67*']))
    # Checks multiple filters intersect
    self.assertEqual(['m4e3'],
                     local_device_gtest_run._ExtractTestsFromFilters(
                         ['b17:m4e3:p51', 'b17:m4e3', 'm4e3:p51']))

  def testGetLLVMProfilePath(self):
    path = local_device_gtest_run._GetLLVMProfilePath('test_dir', 'sr71', '5')
    self.assertEqual(path, os.path.join('test_dir', 'sr71_5_%2m%c.profraw'))

  def testGroupPreTests(self):
    pre_test_group1 = [
        'TestSuite1.PRE_PRE_TestName',
        'TestSuite1.PRE_TestName',
        'TestSuite1.TestName',
    ]
    # pre test group with "abc_" added to pre_test_group1
    pre_test_group2 = [
        'TestSuite1.PRE_PRE_abc_TestName',
        'TestSuite1.PRE_abc_TestName',
        'TestSuite1.abc_TestName',
    ]
    # pre test group with disabled prefixes in test name
    pre_test_group3 = [
        'TestSuite2.DISABLED_PRE_PRE_TestName',
        'TestSuite2.DISABLED_PRE_TestName',
        'TestSuite2.DISABLED_TestName',
    ]
    # pre test group with disabled prefixes in test suite
    pre_test_group4 = [
        'DISABLED_TestSuite3.PRE_PRE_TestName',
        'DISABLED_TestSuite3.PRE_TestName',
        'DISABLED_TestSuite3.TestName',
    ]

    tests = [
        'TestSuite1.NormalTestName1',
        'TestSuite1.NormalTestName2',
    ] + pre_test_group1 + pre_test_group2 + pre_test_group3 + pre_test_group4
    # shuffle the tests to test if each pre test group is still in order.
    random.shuffle(tests)
    pre_tests, _ = local_device_gtest_run._GroupPreTests(tests)
    self.assertIn(pre_test_group1, pre_tests)
    self.assertIn(pre_test_group2, pre_tests)
    self.assertIn(pre_test_group3, pre_tests)
    self.assertIn(pre_test_group4, pre_tests)

  def test_IsPreTestGroup(self):
    self.assertTrue(local_device_gtest_run._IsPreTestGroup([
        'TestSuite1.TestName1',
        'TestSuite1.PRE_TestName1',
        'TestSuite1.PRE_PRE_TestName1',
    ]))
    self.assertFalse(local_device_gtest_run._IsPreTestGroup([
        'TestSuite1.TestName2',
    ]))
    self.assertFalse(local_device_gtest_run._IsPreTestGroup([
        'TestSuite1.TestName1',
        'TestSuite1.PRE_TestName1',
        'TestSuite1.TestName2',
    ]))

  def test_ApplyExternalSharding(self):
    tests = [
        'TestSuite1.TestName1',
        'TestSuite1.TestName2',
        'TestSuite1.PRE_TestName3',
        'TestSuite1.TestName3',
        'TestSuite2.PRE_TestName1',
        'TestSuite2.TestName1',
        'TestSuite2.TestName2',
    ]
    expected_shard0 = [
        'TestSuite1.TestName2',
        'TestSuite1.TestName1',
    ]
    expected_shard1 = [
        ['TestSuite1.PRE_TestName3', 'TestSuite1.TestName3'],
        ['TestSuite2.PRE_TestName1', 'TestSuite2.TestName1'],
        'TestSuite2.TestName2',
    ]
    # Shuffle the tests two times to check if the output is deterministic.
    random.shuffle(tests)
    self.assertListEqual(self._obj._ApplyExternalSharding(tests, 0, 2),
                         expected_shard0)
    self.assertListEqual(self._obj._ApplyExternalSharding(tests, 1, 2),
                         expected_shard1)
    random.shuffle(tests)
    self.assertListEqual(self._obj._ApplyExternalSharding(tests, 0, 2),
                         expected_shard0)
    self.assertListEqual(self._obj._ApplyExternalSharding(tests, 1, 2),
                         expected_shard1)

  def test_CreateShardsForDevices(self):
    self._obj._env.devices = [1]
    self._obj._test_instance.test_launcher_batch_limit = 2
    self._obj._crashes = set(
        ['TestSuite1.CrashedTest1', 'TestSuite1.CrashedTest2'])
    tests = [
        ['TestSuite1.PRE_TestName1', 'TestSuite1.TestName1'],
        'TestSuite1.TestName2',
        'TestSuite1.TestName3',
        'TestSuite1.CrashedTest1',
        'TestSuite2.TestName1',
        ['TestSuite1.PRE_CrashedTest2', 'TestSuite1.CrashedTest2'],
        'TestSuite2.TestName2',
        'TestSuite2.TestName3',
    ]
    expected_shards = [
        ['TestSuite1.PRE_TestName1', 'TestSuite1.TestName1'],
        ['TestSuite1.TestName2', 'TestSuite1.TestName3'],
        ['TestSuite1.CrashedTest1'],
        ['TestSuite1.PRE_CrashedTest2', 'TestSuite1.CrashedTest2'],
        ['TestSuite2.TestName1', 'TestSuite2.TestName2'],
        ['TestSuite2.TestName3'],
    ]
    actual_shards = self._obj._CreateShardsForDevices(tests)
    self.assertListEqual(actual_shards, expected_shards)

  def test_GetTestsToRetry(self):
    test_data = [
        ('TestSuite1.TestName1', base_test_result.ResultType.PASS),
        ('TestSuite1.TestName2', base_test_result.ResultType.FAIL),
        ('TestSuite1.PRE_TestName3', base_test_result.ResultType.PASS),
        ('TestSuite1.TestName3', base_test_result.ResultType.FAIL),
    ]
    all_tests = [
        'TestSuite1.TestName1',
        'TestSuite1.TestName2',
        ['TestSuite1.PRE_TestName3', 'TestSuite1.TestName3'],
    ]
    try_results = base_test_result.TestRunResults()
    for test, test_result in test_data:
      try_results.AddResult(
          base_test_result.BaseTestResult(self._obj._GetUniqueTestName(test),
                                          test_result))
    actual_retry = self._obj._GetTestsToRetry(all_tests, try_results)
    expected_retry = [
        'TestSuite1.TestName2',
        ['TestSuite1.PRE_TestName3', 'TestSuite1.TestName3'],
    ]
    self.assertListEqual(actual_retry, expected_retry)


if __name__ == '__main__':
  unittest.main(verbosity=2)